Add to ORKGEnergy storage is a key challenge in solar-driven renewable energy conversion. We promote a photochemical diode based on dilute nitride GaPN grown lattice-matched on Si(100), which could reach both high photovoltaic efficiencies and evolve hydrogen directly without external bias. Homoepitaxial GaP(100) surface preparation was shown to have a significant impact on the semiconductor-water interface formation. Here, we grow a thin, pseudomorphic GaP nucleation buffer on almost single-domain Si(100) prior to GaPN growth and compare the GaP_(0.98)N_(0.02)/Si(100) surface preparation to established P- and Ga-rich surfaces of GaP/Si(100). We apply reflection anisotropy spectroscopy to study the surface preparation of GaP_(0.98)N_(0.02) in situ in ...
We consider GaP Si 100 as quasi substrate for III V on silicon growth targeting solar energy explor...
In this work, we investigate the initial interaction of water and oxygen with different surface reco...
Metalorganic vapor phase epitaxy of III-V compounds commonly involves arsenic. We study the formatio...
Energy storage is a key challenge in solar-driven renewable energy conversion. We promote a photoche...
Energy storage is a key challenge in solar driven renewable energy conversion. We promote a photoche...
Renewable and e amp; 64259;cient generation of hydrogen is one of the key challenges towards a socie...
Efficient photoelectrochemical devices for water splitting benefit from the highest material quality...
We study the initial interaction of adsorbed H2O with P-rich and Ga-rich GaP(100) surfaces. Atomical...
We study the initial interaction of adsorbed H_2O with P-rich and Ga-rich GaP(100) surfaces. Atomica...
Solar water splitting is a promising approach to generate hydrogen as a sustainable fuel. In this pr...
We study the initial interaction of adsorbed H2O with P rich and Ga rich GaP 100 surfaces. Atomical...
A microscopic understanding of the formation of polar on nonpolar interfaces is a prerequisite for w...
In this work, we investigate the initial interaction of water and oxygen with different surface reco...
The following article appeared in Journal of Applied Physics 126.10 (2019): 105704 and may be found...
The compound GaP1-xNx is highly attractive to pseudomorphically integrate red-light emitting devices...
We consider GaP Si 100 as quasi substrate for III V on silicon growth targeting solar energy explor...
In this work, we investigate the initial interaction of water and oxygen with different surface reco...
Metalorganic vapor phase epitaxy of III-V compounds commonly involves arsenic. We study the formatio...
Energy storage is a key challenge in solar-driven renewable energy conversion. We promote a photoche...
Energy storage is a key challenge in solar driven renewable energy conversion. We promote a photoche...
Renewable and e amp; 64259;cient generation of hydrogen is one of the key challenges towards a socie...
Efficient photoelectrochemical devices for water splitting benefit from the highest material quality...
We study the initial interaction of adsorbed H2O with P-rich and Ga-rich GaP(100) surfaces. Atomical...
We study the initial interaction of adsorbed H_2O with P-rich and Ga-rich GaP(100) surfaces. Atomica...
Solar water splitting is a promising approach to generate hydrogen as a sustainable fuel. In this pr...
We study the initial interaction of adsorbed H2O with P rich and Ga rich GaP 100 surfaces. Atomical...
A microscopic understanding of the formation of polar on nonpolar interfaces is a prerequisite for w...
In this work, we investigate the initial interaction of water and oxygen with different surface reco...
The following article appeared in Journal of Applied Physics 126.10 (2019): 105704 and may be found...
The compound GaP1-xNx is highly attractive to pseudomorphically integrate red-light emitting devices...
We consider GaP Si 100 as quasi substrate for III V on silicon growth targeting solar energy explor...
In this work, we investigate the initial interaction of water and oxygen with different surface reco...
Metalorganic vapor phase epitaxy of III-V compounds commonly involves arsenic. We study the formatio...